Exploiting Nonlinear Elasticity for Anomalous Magnetoresponsive Stiffening

Gaurav  Chaudhary; N. Ashwin  Bharadwaj; Paul V.  Braun; Randy H.  Ewoldt

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Exploiting Nonlinear Elasticity for Anomalous Magnetoresponsive Stiffening

机译：用于异常磁散变化的非线性弹性

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摘要

A paradigm for enhanced magnetorheological elastic materials is introduced and experimentally established. We show that a nonlinearly stiffening polymer matrix can be exploited to achieve anomalous magneto-elastomer stiffening exceeding standard magneto-elastomer theory and experiment in terms of percentage stiffness change and sensitivity to applied magnetic flux. Using a model system of a semiflexible fibrin network embedded with micron sized carbonyl iron particles, we demonstrate that even at a modest particle volume fraction (0.5–4%), a coupling between the magnetically interacting dipoles and a strain-stiffening polymer mesh provides previously unexplored opportunities for material design. Our experiments indicate that confined particles within the fibrin network internally tension and stiffen the polymer mesh when an external field is applied, resulting in a field-dependent stiffening response from the polymer mesh that superposes with the magnetic interparticle interactions.

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《ACS Macro Letters》 |2020年第11期|共6页
作者
Gaurav Chaudhary; N. Ashwin Bharadwaj; Paul V. Braun; Randy H. Ewoldt;
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Department of Mechanical Science and Engineering University of Illinois at Urbana?Champaign;

Department of Mechanical Science and Engineering University of Illinois at Urbana?Champaign;

Department of Mechanical Science and Engineering University of Illinois at Urbana?Champaign;

Department of Mechanical Science and Engineering University of Illinois at Urbana?Champaign;

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正文语种 eng
中图分类有机化学;
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Exploiting Nonlinear Elasticity for Anomalous Magnetoresponsive Stiffening

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